Project description:U3A cells stably expressing wild-type STAT1 or STAT1-CC were treated with interferon beta (10U/ml) or control for 24 hours to assess effects of stat1 modifications, interferon, and the interaction on gene expression. Keywords: interferon, STAT1, STAT1-CC, STAT1CC, STAT-1C, antiviral RNA was isolated from stable U3A-STAT1 lines stably expressing wild-type STAT1 or STAT1CC, after 24 hour treatment with interferon beta (10U/ml) or control.

Project description:U3A cells expressing Stat1 were transfected with either wild-type PARP9 and DTX3L, or inactive mutants of PARP9 and DTX3L. Stable lines were assessed for gene expression to identify effects of PARP9/DTX3L overexpression on ISG expression. Keywords: interferon, PARP9, DTX3L, antiviral RNA was isolated from stable U3A-STAT1 lines overexpressing either wild-type or inactive mutants of PARP9 and DTX3L.

Project description:Pancreatic Gene Expression from Wild-Type, Stat1-Transgenic, and Stat1-CC-Transgenic Mice. This data was part of the set of data utilized to identify PARP9/DTX3L as a novel antiviral gene. Keywords: transgene state analysis

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:Analysis of gene expression in lungs of C57BL/6J mice that develop chronic airway disease phenotypes after a single Sendai virus infection, compared with mice treated with UV-inactivated virus. Keywords: disease state analysis Whole lung RNA was analyzed from 3 mice per condition per time point 49 days post infection, Sendai virus versus UV-inactivated virus, C57BL/6J mouse strain.

Project description:Analysis of gene expression in lungs of C57BL/6J mice that develop chronic airway disease phenotypes after a single Sendai virus infection, compared with mice treated with UV-inactivated virus. Keywords: disease state analysis Whole lung RNA was analyzed from 3 mice per condition per time point 3 days post infection, Sendai virus versus UV-inactivated virus, C57BL/6J mouse strain.

Project description:U3A cells stably expressing wild-type STAT1 or STAT1-CC were treated with interferon beta (10U/ml) or control for 24 hours to assess effects of stat1 modifications, interferon, and the interaction on gene expression. Keywords: interferon, STAT1, STAT1-CC, STAT1CC, STAT-1C, antiviral

Project description:Pancreatic Gene Expression from Wild-Type, Stat1-Transgenic, and Stat1-CC-Transgenic Mice

Project description:To study the role of SOCS1 in the cell nucleus in vivo, we generated a transgenic mouse model using a bacterial artificial chromosome (BAC) containing a mutated Socs1 locus (non-nuclear Socs1ΔNLS), GFP and firefly Luciferase, termed MGL. MGL transgenic mice expressing only non-nuclear mutant Socs1 (Socs1-/- MGLtg mice) survive the early lethal phenotype of Socs1-/- mice that die within 3 weeks due to excessive immune signaling, mainly depending on hyperresponsiveness to IFNgamma. Therefore, we suggested that classical IFNgamma signaling might still be efficiently regulated by SOCS1ΔNLS. To prove this hypothesis, bone marrow-derived macrophages (BMMs) from Socs1-/- MGLtg mice and the control group (Socs1+/- MGLtg mice) were stimulated with IFNgamma for 24 h and subjected to whole-genome expression analysis.

Project description:STAT1 is an important regulator of NK cell maturation and cytotoxicity. Although the consequences of Stat1-deficiency have been described in detail the underlying molecular functions of STAT1 in NK cells are only partially understood. Here we describe a novel non-canonical role of STAT1 that was unmasked in NK cells expressing Stat1-Y701F. This mutation prevents JAK-dependent phosphorylation, subsequent nuclear translocation and cytokine-induced transcriptional activity. As expected Stat1-Y701F mice displayed impaired NK cell maturation comparable to Stat1-/- animals. In contrast Stat1-Y701F NK cells exerted a significantly enhanced cytotoxicity in vitro and in vivo suggesting a so-far unknown cytoplasmic function. Using immunofluorescence technology we uncovered the recruitment of STAT1 to the immunological synapse during NK cell killing. A Stat1ind mouse expressing FLAG-tagged STAT1α was used to study the STAT1α interactome in NK cells. Mass spectrometry revealed that STAT1 directly binds proteins involved in cell junction formation and proteins associated to membrane or membrane-bound vesicles. We propose a novel function for STAT1 in the immunological synapse of NK cells regulating tumor surveillance and cytotoxicity.